RU216278U1 - A device for fixing the working end of the optical fiber of a laser analyzer of capillary blood flow for laser Doppler flowmetry when exposed to laser radiation on the tissues of the oral mucosa - Google Patents

Abstract

The utility model relates to the field of medicine, namely to dentistry, and is intended for use in long-term fixation of the working end of the device in the oral cavity. A mouthguard with a positioner made of a composite material is installed in the mouth, made on a 3D printer, previously modeled in a digital program according to the optical impression obtained in the mouth with round holes to fix the recording part of the device with the possibility of location in any topographic zone of the mouth. In the area of the teeth, the thickness of the mouth guard is 2 mm, and in the area of study 4-5 mm to create the possibility of rigidly fixing the end of the device. Possible pressure on the oral mucosa is excluded by creating a space between the mouth guard and the mucosa. The device makes it possible to increase the reliability of fixing the working end of the device and reproduce the place of exposure to physical energy and registration of microcirculation at different time intervals without changing the conditions and place of fixation.

Description

The utility model relates to the field of medicine, in particular dentistry, and can be used for long-term fixation of the working end of the optical fiber of a laser analyzer of capillary blood flow for laser Doppler flowmetry when laser radiation is applied to the tissues of the oral mucosa.

A known method of fixing the working end of the device under the influence of physical energy on the tissues of the teeth and periodontium, protected by a patent for the invention [RU 2 488 365 C1], in which a kappa is installed in the oral cavity, made of thermoplastic mass, made according to individual models of the patient's jaws, with the formation in kappa borders and windows. In the area of the central teeth, the working end of the device is fixed in a window in the area of physical energy impact and in a slot made at the level of the window. In the area of the lateral group of teeth, the working end of the device is fixed by passing it through the abduction tubes, which are rigidly fixed to the edge of the kappa and to the area of physical energy impact.

The disadvantages of this method of fixing the working end of the device when exposed to physical energy on the tissues of the teeth and periodontium include laboriousness and the inability to use it on any part of the oral mucosa, since the impression is taken from the teeth and jaws.

A device for fixing fiberglass probes of the device with laser Doppler flowmetry of the periodontium, protected by a utility model patent [RU No. 39808, 2004]. The device is a vestibular plate made of solid acrylic plastic. The plate is made in one piece with a bite pad located perpendicular to it at a distance of 1/3 of the length from one of its ends and is made rough, with rounded corners. The bite pad divides the surface of the plate into 2 parts: the smaller one is fixing, the larger one is working. On the working part of the bite pad, 2 or 4 through holes are made to hold the probes, stops are made in the holes for their fixation. Based on the description of the device, it is obvious that the probes are fixed in through holes made on the working part of the bite pad.

The disadvantages of this method of fixing the working ends of the device when exposed to physical energy in the oral cavity include the impossibility of determining the area of the initial measurement of microcirculation parameters or exposure to a physical factor in the oral cavity during subsequent manipulations.

A device for fixing the probe of a laser Doppler flowmeter [patent RU 142 577 U1], containing a clamp for the probe, fixed on two movable rods, additionally contains a mounting bracket, consisting of a fixing plate, two ball joints and made with the possibility of installation by means of the specified hinges of the clamp for probe at a right angle to the oral mucosa, as well as a bite plate made of organic glass. The disadvantages of which include the unreliability of fixing the plate, the inability to maintain the original position of the impact site.

A known device for holding the end of the laser fiber in the face and mouth [patent RU 2161016 C1]. To fix the fiberglass probe of the laser Doppler analyzer, a rod with a sleeve-clamp, a laser light guide and a fastening for the patient's head in the form of a belt are used. The belt has a lock for adjusting the length. At the end of the sleeve-clamp, the second rod passes perpendicular to its axis. At the end of the second rod, the second sleeve-clamp for the light guide is rigidly mounted. The disadvantage of the known utility model is the impossibility of absolute immobility of the probe due to the large length of the levers, as well as its massiveness, the long time to adjust the lever arms, as well as the difficulty of accessing the examined areas of the oral cavity due to the lips and cheeks, behind which the lateral teeth are located. interfering with visual inspection and capable of displacing the sensor.

Known methods of fixing electrodes in studies of periodontal hemodynamics, in which rheographic electrodes are fixed in the oral cavity on the mucous membrane of the alveolar processes in the projection of the roots of the teeth using plastic impression masses [Loginova N.K. Functional diagnostics in dentistry. - M .: Partner, 1994, pp. 31-57]. However, this fastening has significant drawbacks that affect the results of practical studies, namely: the impression masses are rigid and dense in structure, and with their help, the electrodes can pinch (compress) the blood vessels of the mucous membrane of the alveolar process, which affects the overall picture of the hemodynamics of the periodontium under study tooth.

According to the closest technical essence as a prototype, we have chosen a method of fixing the electrodes in the oral cavity when determining the hemodynamics of the periodontal teeth. [Patent RF No. 2117458, 1998]. The method consists in the fact that in the oral cavity on the dentition of the corresponding jaw, a mouth guard is placed, pre-made according to individual casts from the upper and / or lower jaw of the supergypsum model. Borders of the mouthguard on the upper jaw: transitional fold along the entire vestibular surface, distally - around the maxillary tubercles and on the palatal surface along the line "A". The border of the kappa on the vestibular surface of the lower jaw: distally - the middle of the retro molar tubercle, on the lingual surface - the place of attachment of the muscles of the floor of the mouth. Kappa is made of transparent plastic mass. In the kappa in the area determined by the need for rheographic studies of the periodontium, holes are made according to the size of the electrodes and the electrodes are placed in the holes made, after which the electrodes are fixed on the kappa using plastic impression masses or using adhesive tape.

The disadvantage of the method we have chosen as a prototype is the fixation of the working ends of the device using plastic impression masses or with adhesive plaster and not being able to reproduce it when the state of the dentition changes.

Fixing the working ends of the device with adhesive tape is not reliable enough, since it is impossible to achieve a rigid fixation that provides the necessary right angle between the mucous membrane and the sensor, especially when the patient moves his lip during the study, for example, during prolonged recording or in case of nervous diseases accompanied by involuntary muscle contractions.

The disadvantages of fixing the working ends of the device, both with the help of plastic impression masses, and with the help of an adhesive plaster, include the inconvenience if it is necessary to quickly change the position of the sensor electrodes in the tray, since for this it is necessary either to remove the tray, or to change the wires in the oral cavity when an unremoved mouth guard, which is possible only when fixing the working ends of the device with an adhesive plaster, which can cause excessive pressure on the oral mucosa, which, in turn, can affect the change in blood flow in it.

The disadvantages of the prototype are also the difficulty of access to the studied areas of the oral cavity due to the lips and cheeks, behind which are the lateral teeth, which interfere with visual control and can displace the sensor.

The technical result achieved with the utility model is to increase the reliability of fixation in any area of the mouth of the working end of the device installed in the kappa. This is achieved by the fact that the device for fixing the working end of the optical fiber of the laser analyzer of capillary blood flow for laser Doppler flowmetry under the influence of laser radiation on the tissues of the oral mucosa consists in installing in the mouth a kappa with branches from a composite material made on a dental milling machine for CAD / CAM ( 1), pre-modeled in a digital program according to the individual optical impression obtained in the mouth with round holes for fixing the recording part of the device with the possibility of location in any topographic zone of the mouth. Kappa securely fixed on the teeth (Figure 2). In the area of the teeth, a mouthguard thickness of 2 mm is modeled, and in the study area, the thickness of the mouthguard is increased to 4-5 mm, which makes it possible to rigidly fix the end of the analyzer to the mouthguard and to the area required for exposure to laser radiation, while the length of the fixed part is 4-5 mm . The boundaries of kappa expand depending on the area of interest. Modeling the mouthguard in a digital program creates a space of 0.5 mm between the mouthguard and the attached mucosa and excludes the possibility of pressure on the oral mucosa. For the movable mucosa, it is possible to support without tension when modeling branches and repeat the anatomical shape.

Fixation by the device of the working end of the optical fiber of the laser analyzer of capillary blood flow for laser Doppler flowmetry when exposed to laser radiation on the tissues of the oral mucosa is implemented, for example, as follows.

They take optical impressions of the dentition, with the gums and the vestibule of the mouth, lips and cheeks. The resulting files with impressions are loaded into the virtual space of the modeler program, and the files from the pre-obtained computed tomography are also loaded there. We combine the files with each other and get general information about the bone structures and mucous membranes with teeth. We model a mouthguard with a thickness of 2 mm covering the dentition up to the necks of the teeth. bending around the equator of the tooth, the kappa is securely fixed. Branches 4-5 mm thick are modeled on the kappa in the study area, departing from the attached mucosa by 0.5 mm to exclude pressure and hypoxia. In the branches, holes with a depth of 4-5 mm are modeled for reliable fixation of the sensor in the study area.

After finishing the modeling process, the kappa is made by milling on a CAD/CAM milling machine. Printed 3D model of the jaw. After that, the kappa is processed from sharp edges and corners by polishing, the reliability of fixing the sensors is checked, they are tried on the model, and then they are sterilized.

We present Fig.1 (Appearance of the device), Fig.2 (Fixation of the device in the mouth), Fig.3 (Virtual patient with the device) and Fig.4 (3D model with the device), which show a device for fixing the working end of the laser light guide analyzer of capillary blood flow for laser Doppler flowmetry under the influence of laser radiation on the tissues of the oral mucosa, modeled in the virtual space of the modeler with combined computed tomography of the head and individual optical impression of the lower jaw, where:

1 - branches with holes;

2 – modeled kappa;

3 - computed tomography;

4 - optical impression of the lower jaw;

In the virtual space, the simulator programs load computed tomography (3), optical scans of the jaw (4). After loading, they are compared with each other and a device is modeled for fixing the working end of the device in the branches with holes (1) on the kappa (2). After that, a jaw model is made on a 3D printer and a mouthguard is milled on a CAD / CAM milling machine from a composite material.

As a source of exposure to laser radiation on the tissues of the oral mucosa, LAKK is used - a laser analyzer of capillary blood flow, the working end of which is fixed - a light guide. For the purpose of irradiating a certain area of the oral mucosa or taking parameters.

Distinctive essential features of the utility model and a causal relationship between the distinctive essential features and the achieved result:

- With the help of an optical impression, you can scan any area of interest or study of interest and repeat it when the conditions of the mouth change.

- If it is necessary to use laser radiation at various stages of dental rehabilitation (after extraction, implantation, prosthetics or adaptation), the impact site can be accurately repeated thanks to the virtual comparison of optical impressions.

- In the virtual space of the simulator program, you can simulate the branches for the analyzer.

- Thanks to optical scanning and virtual modeling, it is possible to create a space between the branches and the study area of 0.5 mm, prevent pressure on the mucous membrane of the study area, pushing the soft tissues away, which contributes to:

- more uniform load distribution when attaching the working end of the analyzer, which increases the reliability of their fixation;

- elimination of interference, for example, during prolonged recording or in case of nervous diseases accompanied by involuntary muscle contractions;

- simplification of access to the examined areas of the oral cavity and improvement of their visual control.

The length of 4-5 mm of the fixed part of the analyzer in the leads with holes ensures a secure fixation. Such a length allows, with minimal dimensions, to ensure the position of the sensor at a right angle between the area of the mucous membrane exposed to laser radiation and the end of the light guide, and while maintaining the shortest distance, greater rigidity and load resistance are provided.

The set of distinctive essential features is new and makes it possible to increase the reliability of fixation of the working end of the device installed in the kappa and the convenience of using the device if it is necessary to quickly change the position of the analyzer working end in the kappa, as well as to improve access to the examined areas of the oral cavity and their visibility.

Clinical examples

Clinical example 1.

Patient A., 45 years old. When studying the blood flow of the oral mucosa, the working end of the light guide of the device for laser Doppler flowmetry LAKK OP was fixed in the oral cavity according to the claimed method. The working end of the device was fixed from a branch with holes located in the specified areas of the study - the attached gum between 13, 12 and 22, 23. Then it was moved to the area 14, 15 and 24.25. Blood flow studies were performed before tooth splinting, after 1 month, 3 months, 6 months. and 12 months, accurately reproducing the study site.

Clinical example 2.

Patient V., 60 years old. She was diagnosed with "Partial adentia on the upper jaw". When studying the blood flow of the oral mucosa, the working end of the light guide of the device for laser Doppler flowmetry LAKK OP was fixed in the oral cavity according to the claimed method. The working end of the device was fixed from a branch with holes located in the specified areas of the study - attached gum in the place of adentia 14 and future implantation and in a symmetrical area with teeth 24. The studies were carried out at the stages of adentia, implantation, prosthetics, after 6 months. and 12 months. after prosthetics. We studied changes in microcirculation in symmetrical areas at different stages of dental rehabilitation under changed oral conditions.

Thus, the device for fixing the working end of the optical fiber of the laser analyzer of capillary blood flow for laser Doppler flowmetry under the influence of laser radiation on the tissues of the oral mucosa makes it possible to increase, in comparison with the prototype method, the reliability of fixation in any area of the mouth of the working end of the device installed in the kappa.

Claims (1)

A device for fixing the working end of the optical fiber of the laser analyzer of capillary blood flow for laser Doppler flowmetry under the influence of laser radiation on the tissues of the oral mucosa, made in the form of a kappa, and the kappa is made with the possibility of installation in the oral cavity, characterized in that the kappa is made according to individual optical impressions and is made with holes for fixing the working end of the laser analyzer's light guide in them in the area determined by the need for exposure to laser radiation; it in the oral cavity to preserve the space between the mouthguard and the attached mucosa to exclude possible pressure on the oral mucosa and with the possibility of supporting the movable mucosa without its tension, while the mouthguard has a thickness of 2 mm in area of the teeth, and in the area of influence, in which holes are made 4-5 mm deep to fix the working end of the laser analyzer light guide in them, the thickness of the kappa is increased to 4-5 mm.

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